Report Summary

  • 55

    Performance

    Renders faster than
    72% of other websites

  • 100

    Accessibility

    Visual factors better than
    that of 97% of websites

  • 92

    Best Practices

    More advanced features
    available than in
    81% of websites

  • 83

    SEO

    Google-friendlier than
    46% of websites

mail.baylor.edu

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Page Load Speed

5 sec in total

First Response

86 ms

Resources Loaded

4.8 sec

Page Rendered

128 ms

mail.baylor.edu screenshot

About Website

Welcome to mail.baylor.edu homepage info - get ready to check Mail Baylor best content for United States right away, or after learning these important things about mail.baylor.edu

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Key Findings

We analyzed Mail.baylor.edu page load time and found that the first response time was 86 ms and then it took 4.9 sec to load all DOM resources and completely render a web page. This is a poor result, as 70% of websites can load faster.

Performance Metrics

mail.baylor.edu performance score

55

Measured Metrics

name

value

score

weighting

FCP (First Contentful Paint)

Value4.4 s

16/100

10%

LCP (Largest Contentful Paint)

Value8.6 s

1/100

25%

SI (Speed Index)

Value4.4 s

73/100

10%

TBT (Total Blocking Time)

Value290 ms

80/100

30%

CLS (Cumulative Layout Shift)

Value0.067

97/100

15%

TTI (Time to Interactive)

Value5.1 s

75/100

10%

Network Requests Diagram

86 ms

authorize

184 ms

login.min.css

65 ms

jquery.1.11.min.js

79 ms

aad.login.min.js

94 ms

Our browser made a total of 9 requests to load all elements on the main page. We found that 0% of them (0 request) were addressed to the original Mail.baylor.edu, 11% (1 request) were made to Outlook.office365.com and 11% (1 request) were made to Login.microsoftonline.com. The less responsive or slowest element that took the longest time to load (184 ms) relates to the external source Login.microsoftonline.com.

Page Optimization Overview & Recommendations

Page size can be reduced by 270.1 kB (72%)

Content Size

375.7 kB

After Optimization

105.6 kB

In fact, the total size of Mail.baylor.edu main page is 375.7 kB. This result falls beyond the top 1M of websites and identifies a large and not optimized web page that may take ages to load. 15% of websites need less resources to load. Javascripts take 295.1 kB which makes up the majority of the site volume.

HTML Optimization

-73%

Potential reduce by 35.6 kB

  • Original 48.5 kB
  • After minification 44.5 kB
  • After compression 12.9 kB

HTML content can be minified and compressed by a website’s server. The most efficient way is to compress content using GZIP which reduces data amount travelling through the network between server and browser. HTML code on this page is well minified. It is highly recommended that content of this web page should be compressed using GZIP, as it can save up to 35.6 kB or 73% of the original size.

Image Optimization

-28%

Potential reduce by 350 B

  • Original 1.2 kB
  • After minification 897 B

Image size optimization can help to speed up a website loading time. The chart above shows the difference between the size before and after optimization. Obviously, Mail Baylor needs image optimization as it can save up to 350 B or 28% of the original volume. The most popular and efficient tools for JPEG and PNG image optimization are Jpegoptim and PNG Crush.

JavaScript Optimization

-71%

Potential reduce by 210.8 kB

  • Original 295.1 kB
  • After minification 295.1 kB
  • After compression 84.3 kB

It’s better to minify JavaScript in order to improve website performance. The diagram shows the current total size of all JavaScript files against the prospective JavaScript size after its minification and compression. It is highly recommended that all JavaScript files should be compressed and minified as it can save up to 210.8 kB or 71% of the original size.

CSS Optimization

-76%

Potential reduce by 23.4 kB

  • Original 30.8 kB
  • After minification 30.1 kB
  • After compression 7.4 kB

CSS files minification is very important to reduce a web page rendering time. The faster CSS files can load, the earlier a page can be rendered. Mail.baylor.edu needs all CSS files to be minified and compressed as it can save up to 23.4 kB or 76% of the original size.

Requests Breakdown

We found no issues to fix!

Requests Now

5

After Optimization

5

The browser has sent 5 CSS, Javascripts, AJAX and image requests in order to completely render the main page of Mail Baylor. According to our analytics all requests are already optimized.

Accessibility Review

mail.baylor.edu accessibility score

100

Accessibility Issues

Best Practices

mail.baylor.edu best practices score

92

Areas of Improvement

Trust and Safety

Impact

Issue

High

Does not use HTTPS

Low

Ensure CSP is effective against XSS attacks

General

Impact

Issue

Low

Detected JavaScript libraries

High

Page has valid source maps

SEO Factors

mail.baylor.edu SEO score

83

Search Engine Optimization Advices

Crawling and Indexing

To appear in search results, crawlers need access to your app.

Impact

Issue

High

Page is blocked from indexing

Mobile Friendly

Make sure your pages are mobile friendly so users don’t have to pinch or zoom in order to read the content pages. [Learn more](https://developers.google.com/search/mobile-sites/).

Impact

Issue

High

Document uses legible font sizes

Language and Encoding

  • Language Detected

    EN

  • Language Claimed

    EN

  • Encoding

    UTF-8

Language claimed in HTML meta tag should match the language actually used on the web page. Otherwise Mail.baylor.edu can be misinterpreted by Google and other search engines. Our service has detected that English is used on the page, and it matches the claimed language. Our system also found out that Mail.baylor.edu main page’s claimed encoding is utf-8. Use of this encoding format is the best practice as the main page visitors from all over the world won’t have any issues with symbol transcription.

Social Sharing Optimization

Open Graph description is not detected on the main page of Mail Baylor. Lack of Open Graph description can be counter-productive for their social media presence, as such a description allows converting a website homepage (or other pages) into good-looking, rich and well-structured posts, when it is being shared on Facebook and other social media. For example, adding the following code snippet into HTML <head> tag will help to represent this web page correctly in social networks: